Difference between revisions of "Publications"

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# J.P. Radomski, P. Płoński, W. Zagórski-Ostoja, “'''''The hemagglutinin mutation E391K of the pandemic 2009 influenza revisited'''''” - submitted;
 
# J.P. Radomski, P. Płoński, W. Zagórski-Ostoja, “'''''The hemagglutinin mutation E391K of the pandemic 2009 influenza revisited'''''” - submitted;
 
# P. Plonski, J.P. Radomski, '''''''DAC – The Use of Neighbor-Joining for Inferring Very Large Phylogenies – Heuristic Method Improvements'''''" - submitted;
 
# P. Plonski, J.P. Radomski, '''''''DAC – The Use of Neighbor-Joining for Inferring Very Large Phylogenies – Heuristic Method Improvements'''''" - submitted;
# P. Plonski, J.P. Radomski, ''''Phylogenetic Topology, Structure, and Other Features of the Sequences Set – Their Influence on Trees’ Reconstruction'''' - submitted;
+
# P. Plonski, J.P. Radomski, ''''''Phylogenetic Topology, Structure, and Other Features of the Sequences Set – Their Influence on Trees’ Reconstruction'''''' - submitted;
 
# J.P. Radomski, P.P. Slonimski, '''''Alignment Free Characterization of the Influenza A Hemagglutinin Genes by the ISSCOR Method'''''', Comptes Rendus Biologies 335 (2012) 180-193; [http://dx.doi.org/10.1016/j.crvi.2012.01.001 DOI]
 
# J.P. Radomski, P.P. Slonimski, '''''Alignment Free Characterization of the Influenza A Hemagglutinin Genes by the ISSCOR Method'''''', Comptes Rendus Biologies 335 (2012) 180-193; [http://dx.doi.org/10.1016/j.crvi.2012.01.001 DOI]
 
# P. Plonski, J.P. Radomski, '''''Quick path finding: Quick algorithmic solution for unambiguous labeling of phylogenetic tree nodes''''', Computational Biology and Chemistry 34 (2010) 300-307. [http://dx.doi.org/10.1016/j.compbiolchem.2010.10.002 DOI]
 
# P. Plonski, J.P. Radomski, '''''Quick path finding: Quick algorithmic solution for unambiguous labeling of phylogenetic tree nodes''''', Computational Biology and Chemistry 34 (2010) 300-307. [http://dx.doi.org/10.1016/j.compbiolchem.2010.10.002 DOI]

Revision as of 01:56, 28 March 2013

  1. P. Płoński, J.P. Radomski, “Neighbor Joining Plus - algorithm for phylogenetic tree reconstruction with proper nodes assignment” – submitted;
  2. J.P Radomski, P.P Slonimski, W. Zagórski-Ostoja, “Mapping of the Influenza-A Hemagglutinin Serotypes Evolution by the ISSCOR Method” – submitted;
  3. J.P. Radomski, P. Płoński, W. Zagórski-Ostoja, “The hemagglutinin mutation E391K of the pandemic 2009 influenza revisited” - submitted;
  4. P. Plonski, J.P. Radomski, ''DAC – The Use of Neighbor-Joining for Inferring Very Large Phylogenies – Heuristic Method Improvements" - submitted;
  5. P. Plonski, J.P. Radomski, 'Phylogenetic Topology, Structure, and Other Features of the Sequences Set – Their Influence on Trees’ Reconstruction' - submitted;
  6. J.P. Radomski, P.P. Slonimski, Alignment Free Characterization of the Influenza A Hemagglutinin Genes by the ISSCOR Method', Comptes Rendus Biologies 335 (2012) 180-193; DOI
  7. P. Plonski, J.P. Radomski, Quick path finding: Quick algorithmic solution for unambiguous labeling of phylogenetic tree nodes, Computational Biology and Chemistry 34 (2010) 300-307. DOI
  8. F. Rakowski, M. Gruziel, L. Bieniasz-Krzywiec, J. P. Radomski, Influenza epidemic spread simulation for Poland - a large scale, individual based model study, Physica A: Statistical Mechanics and its Applications, 389 (2010), 3149-3165, DOI
  9. F. Rakowski, M. Gruziel, M. Krych, J. P. Radomski, Large Scale Daily Contacts and Mobility Model - an Individual-Based Countrywide Simulation Study for Poland, Journal of Artificial Societies and Social Simulation 13 (1) 13, 2010
  10. T. Żuk, F. Rakowski, J. P. Radomski, Probabilistic model of influenza virus transmissibility at various temperature and humidity conditions, Comput.Biol.Chem., 33 (2009), 339-343, DOI
  11. T. Żuk, F. Rakowski, J. P. Radomski, A model of influenza virus spread as a function of temperature and humidity, Comput.Biol.Chem., 33 (2009), 176-180, DOI
  12. J. P. Radomski and P. P. Slonimski, ISSCOR: Intragenic, Stochastic Synonymous Codon Occurrence Replacement – a new method for an alignment-free genome sequence analysis, Comptes Rendus Biologies, 332 (2009), 336-350 DOI